Tubular-specific CDK12 knockout causes a defect in urine concentration due to premature cleavage of the slc12a1 gene.

Cyclin-dependent kinase 12 (CDK12) plays a critical role in regulating gene transcription. CDK12 inhibition is a potential anticancer therapeutic strategy. However, several clinical trials have shown that CDK inhibitors might cause renal dysfunction and electrolyte disorders. CDK12 is abundant in renal tubular epithelial cells (RTECs), but the exact role of CDK12 in renal physiology remains unclear. Genetic knockout of CDK12 in mouse RTECs causes polydipsia, polyuria, and hydronephrosis. This phenotype is caused by defects in water reabsorption that are the result of reduced Na-K-2Cl cotransporter 2 (NKCC2) levels in the kidney. In addition, CKD12 knockout causes an increase in Slc12a1 (which encodes NKCC2) intronic polyadenylation events, which results in Slc12a1 truncated transcript production and NKCC2 downregulation. These findings provide novel insight into CDK12 being necessary for maintaining renal homeostasis by regulating NKCC2 transcription, which explains the critical water and electrolyte disturbance that occurs during the application of CDK12 inhibitors for cancer treatment. Therefore, there are safety concerns about the clinical use of these new anticancer drugs. Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.

Citation

Bin Wang, Yao Wang, Yi Wen, Yi-Lin Zhang, Wei-Jie Ni, Tao-Tao Tang, Jing-Yuan Cao, Qing Yin, Wei Jiang, Di Yin, Zuo-Lin Li, Lin-Li Lv, Bi-Cheng Liu. Tubular-specific CDK12 knockout causes a defect in urine concentration due to premature cleavage of the slc12a1 gene. Molecular therapy : the journal of the American Society of Gene Therapy. 2022 May 16

PMID: 35581939

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